Abstract

Animals repeatedly dosed with methamphetamine during a single day suffer damage to brain dopamine and serotonin terminals and show behavioral deficits. These methamphetamine regimens also produce long-term reductions in dopamine agonist-stimulated immediate-early gene responses both in striatum and several cortical areas, but the mechanism(s) underlying these long-lasting effects of methamphetamine remain uncertain. Six weeks after a neurotoxic regimen of methamphetamine (4 × 4 mg/kg) or saline, α subunit levels of striatal G-proteins that couple dopamine receptors to second messenger systems were measured. Because the damage to striatal monoamine terminals produced by methamphetamine is regionally heterogeneous, we used radioimmunocytochemistry, which combines quantification with regional resolution. We found significant increases in G(iα) and G(olfα) expression in the ventral striatum (but not in the dorsolateral striatum or nucleus accumbens) of methamphetamine-pretreated rats, a regional pattern similar to that reported for methamphetamine effects on dopamine terminal markers. By contrast, G(qα) expression was unaffected in all striatal subregions. The central roles of G(i) and G(olf) in modulating the activity of a series of interlinked intracellular signaling pathways suggest that methamphetamine-induced changes in G(i) and G(olf) can have lasting effects on striatal neuronal function.

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